JP6668887B2 - Remote controller - Google Patents

Description

The present invention relates to a remote controller for remotely operating an air conditioner.

The air conditioner has the same basic functions in order to meet various needs of the user, but there are cases where a plurality of models having different numbers and types of additional functions are manufactured. Along with this, the remote controller that remotely controls the air conditioner also has different operation buttons depending on the additional functions for each model of the air conditioner, and the control program to be installed is different. It is difficult to obtain and the cost of the product increases.

Against this background, multiple types of operation programs are stored in the storage unit, and the circuit on the board is physically changed depending on the presence or absence of jumpers and the setting of DIP switches, so that the operation program can be switched to the operation program according to the model. Possible control boards are known. (For example, see Patent Document 1).

JP-A-2002-115665 (pages 3 and 4, FIG. 5)

However, with the control board of Patent Literature 1, an operator must change jumper and dip switch settings in order to activate a control program corresponding to the model. For this reason, there has been a problem that the change of the setting places a burden on the operator, and a wrong control program is started when an operation mistake or forgetting of the setting change occurs.

An object of the present invention is to solve the problems described above and to provide a remote controller that can automatically start a control program of the remote controller according to the model of the air conditioner.

In order to solve the above-mentioned problem, the present invention provides a remote controller according to claim 1 of the present invention, wherein a capacitance-type touch sensor and a value of capacitance output from the touch sensor satisfy a predetermined threshold. An operation detecting means for detecting the touch operation as a touch operation when the operation time exceeds the threshold, an operation sheet arranged one or more times on the upper surface of the touch sensor, a storage unit for storing a plurality of control programs, and the operation detecting means; The number of the operation sheets is detected according to the detected value of the capacitance, and a control program corresponding to the number of the operation sheets is selected and activated from the plurality of control programs stored in the storage unit. And a control program switching means.

Further, in the remote controller according to the second aspect of the present invention, the value of the capacitance for selecting a control program corresponding to the type of the operation sheet is such that the maximum number of the operation sheets are arranged so as to overlap each other. At this time, the operation detecting means is a value capable of detecting a touch operation.

According to the remote controller of the present invention, the control program can be automatically started in accordance with the model of the air conditioner. Prevent it from being activated.

FIG. 2 is a block diagram illustrating a schematic configuration of a remote controller according to the present invention. FIG. 4 is an explanatory diagram illustrating an example of an operation sheet arranged on a remote controller according to the present invention. FIG. 4 is an explanatory diagram showing an example of an operation sheet determination table stored in a storage unit of a remote controller according to the present invention. 5 is a flowchart illustrating an example of a process of a control program switching unit of the remote controller according to the present invention.

  Hereinafter, an embodiment of the present invention will be described in detail as an example based on the accompanying drawings. The present invention is not limited to the following embodiments, and can be variously modified without departing from the gist of the present invention.

FIG. 1 is a block diagram showing a schematic configuration of a remote controller according to the present invention. In FIG. 1, a remote controller 1 includes a display unit 11 for notifying a user of an operation state of the air conditioner main body and the like, an operation sheet 12 on which a design of operation buttons for receiving an operation from the user is printed, A touch sensor 13 of a capacitance type that periodically outputs the capacitance of the electrode on which the operation button is disposed and a communication unit 14 that communicates with the air conditioner main body; A storage unit 15 for storing data used for controlling the remote controller such as a threshold value, and a control unit 16 for controlling these are provided.

In addition, the operation sheet 12 has a plurality of sheets on which the patterns of the operation buttons having different patterns are printed, which will be described later, are superimposed. By peeling off the superimposed sheet, the number and the type of the operation button patterns, The position can be changed.

In addition, the storage unit 15 stores a plurality of control programs 151 corresponding to different air conditioner models and a capacitance value corresponding to the thickness of the operation sheet 12 that changes according to the number of sheets to be superimposed. An operation sheet determination table 152 for storing information is provided.

The control unit 16 further includes an operation detection unit 161 that is an operation detection unit that detects that a touch operation has been performed when the value of the capacitance output from the touch sensor 13 exceeds a predetermined threshold. The value of the capacitance output by the touch sensor 13 when the touch operation is detected later is confirmed, and one control program associated with the value of the capacitance is selected from the plurality of control programs 151. It has a control program switching unit 162 which is a control program switching unit to be activated.

FIG. 2 is an explanatory diagram illustrating an example of the operation sheet 12 arranged on the remote controller 1 according to the present invention. FIG. 2A shows a sheet a on which one pattern of the operation sheet 12 is printed. On the surface of the sheet a, an ON / OFF operation button 121 for starting / stopping the operation of the air conditioner body, an UP operation button 122 for increasing the set temperature, and a DOWN operation button 123 for decreasing the set temperature are provided. The three types of operation buttons are printed.

FIG. 2B shows a sheet b on which another pattern of the operation sheet 12 is printed. On the surface of the sheet b, in addition to the three types of operation buttons printed on the upper surface of the sheet a in FIG. 2A, a cooling operation button 124 for causing the air conditioner main body to perform a cooling operation, Symbols of a total of six types of operation buttons are printed, including a heating operation button 125 for causing the main body of the air conditioner to perform a heating operation and a fan operation button 126 for changing the air volume of the air conditioner main body.

The sheet a in FIG. 2A and the sheet b in FIG. 2B are formed of, for example, an opaque polycarbonate resin having a thickness of 1 mm, and are formed by superposing the back surface of the sheet a on the front surface of the sheet b. The completed operation sheet 12a can correspond to the model of the air conditioner using three types of operation buttons.

When the operation sheet 12 is changed to a type having a large number of operation buttons or a large number of operation buttons, the sheet a in FIG. 2A is peeled off to expose the sheet b in FIG. Form. The operation sheet 12b is adapted to a model of an air conditioner using six types of operation buttons. For this reason, the operation sheet 12 may be an operation sheet 12b in which there is only one sheet b, or may be an operation sheet 12a in which two sheets, a sheet a and a sheet b, are formed to overlap each other.

As described above, the number of sheets of the operation sheet 12 of the remote controller 1, that is, the thickness of the operation sheet 12 varies depending on the model of the air conditioner. Further, since the operation buttons printed on the operation sheet 12b are arranged on the upper surface of the touch sensor 13, the capacitance detection value output from the touch sensor 13 when the operation detection unit 161 detects a human operation. Is larger as the thickness of the operation sheet 12 is smaller, and is smaller as the thickness of the operation sheet 12 is larger. For this reason, the threshold value of the capacitance set in advance for detecting the touch operation is set to a value of the capacitance that can determine that the touch operation has been performed even when the thickness of the operation sheet 12 is the maximum. ing.

The capacitance “Ck” of the operation sheet 12 is defined as “ε0” for the vacuum dielectric constant, “εs” for the dielectric constant of the insulator, “S” for the electrode area, and “L” for the sheet thickness. It can be calculated by the following equation 1.
Formula 1: Ck = ε0 × εs × (S / L)
Equation 1 indicates that the capacitance of the same material (the operation sheet 12 having the same relative permittivity) is inversely proportional to the increase in the thickness of the operation sheet 12 when the area of the electrode (the area of the electrode of the touch sensor 13) is the same. It shows that it decreases. Therefore, the capacitance value “Ck1” of the operation sheet 12b having only one sheet b having a thickness of 1 mm and the two sheets of the sheet a and the sheet b having a thickness of 1 mm are superimposed and the total thickness is The relationship with the capacitance value “Ck2” of the operation sheet 12a that is 2 mm is Ck1 = 2 × Ck2, and Ck1> Ck2.

The combined capacitance “C” of the capacitance output from the touch sensor 13 when a human touches the operation button is “Cp”, which is the parasitic capacitance generated between the electrode and the surrounding conductive material. The capacitance “Ck” of the operation sheet 12 calculated in step 1 and the capacitance of the human body “Cm” can be calculated by the following equation 2.
Formula 2: C = Cp + (Ck × Cm / (Ck + Cm))
From this equation 2, the combined capacitance value “C1” of the capacitance in the case of the operation sheet 12b having only one sheet b having a thickness of 1 mm and the value of the sheet a and the sheet b having a thickness of 1 mm are obtained. The relationship between the capacitance and the composite capacitance value “C2” in the case of two operation sheets 12a having a total of 2 mm is C1> C2 because Ck1> Ck2.

For this reason, the capacitance threshold “C0” for determining that a touch operation has been performed is the case where the thickness of the operation sheet 12 is the maximum, and the case where the operation sheet 12a is 2 mm in total with two sheets. The capacitance value smaller than “C2” is set so that it is possible to determine that the touch operation has been performed even if the combined capacitance value of the capacitances “C2” is “C2”. Therefore, the relationship between the threshold value “C0” of the capacitance and the combined capacitance values “C1” and “C2” of the capacitance of the operation sheet 12 is C0 <C2 <C1.

FIG. 3 is an explanatory diagram illustrating an example of the operation sheet determination table 152 stored in the storage unit 15 of the remote controller 1 according to the present invention. The operation sheet determination table 152 is used by the control program switching unit 162.

The item “sheet arrangement” in the operation sheet determination table 152 includes information indicating the type of sheet such as the number of sheets forming the operation sheet 12 (operation sheet 12a: sheet a + sheet b or operation sheet 12b: sheet b). Is stored in advance. The item of “capacitance” includes a capacitance as a sheet determination value for determining the number of sheets from the value of the capacitance output by the touch sensor 13 when the operation detection unit 161 detects a human operation. “C3” is stored in advance. In addition, the value between the combined capacitance “C1” of the capacitance in the case of the operation sheet 12b and the combined capacitance “C2” of the capacitance in the case of the operation sheet 12a is set as “C3”. Is done. Therefore, the relationship between the capacitance “C3” as the sheet determination value and the combined capacitance values “C1” and “C2” of the capacitance of the operation sheet 12 is C2 <C3 <C1. In the item of “type” of “control program”, information indicating the type of control program corresponding to the items of “capacitance” and “sheet layout” is stored in advance.

Accordingly, for these items, the type of the control program 151 to be activated when the operation sheet 12b is disposed is “control program B”, and the type of the control program 151 to be activated when the operation sheet 12a is disposed is This indicates that the control sheet is the “control program A”, and the value of the combined capacitance output from the touch sensor 13 of the operation sheet 12 is “ This indicates that the determination is made based on whether the value is equal to or more than “C3” or less than “C3”.

The control program switching unit 162 checks the value of the combined capacitance output by the touch sensor 13 when the operation detection unit 161 detects a touch operation, and the “capacitance” of the operation sheet determination table 152, and FIG. As described above, when the operation sheet 12b having a thickness of 1 mm is arranged as the operation sheet 12, the combined capacitance “C1” output by the touch sensor 13 is equal to or larger than the capacitance “C3” of the operation sheet determination table 152. "Control program B" corresponding to the operation sheet 12 can be selected and activated. As described with reference to FIG. 2, when the operation sheet 12 a having a total thickness of 2 mm in which two sheets of the sheet a and the sheet b each having a thickness of 1 mm are overlapped as the operation sheet 12, the touch sensor 13 is provided. Corresponds to the capacitance "less than C3" of the operation sheet determination table 152, the "control program A" corresponding to the operation sheet 12 can be selected and activated. .

Since the control program A corresponds to the operation sheet 12a, the cooling operation button 124, the heating operation button 125, and the fan operation button 126 of the sheet b not exposed on the surface of the operation sheet 12a are operated. The detection unit 161 does not function (does not detect a touch operation).

No information is stored in advance in the item of “selection flag” of the “control program” of the operation sheet determination table 152. When the control program switching unit 162 selects and starts the control program 151, a flag of “1” is added to the “selection flag” item of the operation sheet determination table 152 corresponding to the type of the control program 151 and stored. I do. This allows the control program switching unit 162 to function only when “1” is not stored in the “selection flag”, that is, only when a touch operation is detected after the first power-on.

The item “sheet arrangement” is used to explain the relationship between the item “capacitance” and the sheet arranged on the operation sheet 12 described with reference to FIG. It is not a required item to make it work.

FIG. 4 is a flowchart illustrating an example of processing of the control program switching unit 162 of the remote controller 1 according to the present invention. It is assumed that the power of the remote controller 1 is turned on as a condition for starting the processing of FIG. Note that ST described in the flowchart represents a step, and a number following this represents a step number.

The control program switching unit 162 checks the operation sheet determination table 152 in the storage unit 15 and checks whether “1” is stored in the selection flag (ST1). When "1" is not stored in the selection flag, that is, when power is turned on for the first time (ST1-No), a message instructing a touch operation is displayed on the display unit 11 (ST2). Subsequently, it is determined whether or not the operation detection unit 161 has detected a touch operation, that is, whether or not the value of the capacitance output by the touch sensor 13 exceeds a predetermined threshold “C0” (ST3).

If a touch operation has not been detected in ST3 (ST3-No), the control program switching unit 162 returns to ST3 and waits until the operation detection unit 161 detects a touch operation. On the other hand, when a touch operation is detected (ST3-Yes), the value “C” of the combined capacitance output by the touch sensor 13 when the touch operation is detected is acquired. Further, the message indicating the touch operation displayed on the display unit 11 is deleted (ST4).

Subsequently, the control program switching unit 162 determines that the combined capacitance value “C” acquired from the touch sensor 13 is equal to or larger than the “C3” value stored in the capacitance item of the operation sheet determination table 152. It is confirmed whether or not (ST5). If the relationship between “C” and “C3” is C ≧ C3 (ST5-Yes), “1” is added to the selection flag corresponding to the control program B in the operation sheet determination table 152 and stored (ST6). Subsequently, the type of the control program in which “1” is added to the selection flag of the operation sheet determination table 152 is confirmed, and the control program is selected from the plurality of control programs 151 stored in the storage unit 15. Activate (ST7). Then, the process of the control program switching unit 162 ends. In this case, the control program B is selected.

In ST5, when the relationship between “C” and “C3” is not C ≧ C3, that is, when C <C3 (ST5-No), the control program switching unit 162 corresponds to the control program A in the operation sheet determination table 152. "1" is added to the selection flag to be stored and stored (ST8). Then, the process jumps to ST7. In this case, the control program A is selected.

Further, in ST1, when “1” is stored in the selection flag of the operation sheet determination table 152 in ST1, that is, when the power is turned on for the second time or more (ST1-No), the process jumps to ST7. . In this case, one of the control programs A and B has already been selected.

According to the present invention, by performing the processing described with reference to FIG. 4, the control program of the remote controller corresponding to the model of the air conditioner can be automatically started, so that the burden on the operator who associates the remote controller with the model is reduced. In addition, it is possible to prevent an erroneous control program from being started. Further, since it is not necessary to manufacture the remote controller individually for each model of the air conditioner, the mass production effect can be easily obtained, and the cost of the product can be reduced.

1 remote controller 11 display unit 12 operation sheet 12a operation sheet (two sheets)
12b Operation sheet (1 sheet)
121 ON / OFF operation button 122 UP operation button 123 DOWN operation button 124 Cooling operation button 125 Heating operation button 126 Fan operation button 13 Touch sensor 14 Communication unit 15 Storage unit 151 Control program 152 Operation sheet discrimination table 16 Control unit 161 Operation detection unit (Operation detection means)
162 control program switching unit (control program switching means)

Claims (2)

  A capacitance type touch sensor, operation detection means for detecting as a touch operation when the value of the capacitance output from the touch sensor exceeds a predetermined threshold value, and one or more pieces on the upper surface of the touch sensor Operation sheets arranged in a stack, a storage unit for storing a plurality of control programs, and the number of the operation sheets is detected in accordance with the value of the capacitance detected by the operation detection unit. A remote controller comprising: a control program switching unit that selects and starts a control program corresponding to the number of operation sheets from among the plurality of stored control programs. The value of the capacitance for selecting a control program corresponding to the type of the operation sheet is a value by which the operation detecting unit can detect a touch operation when the maximum number of the operation sheets is arranged. The remote controller according to claim 1, wherein:

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